Plan to develop long-lasting supercapacitors would provide a faster, safer alternative to lithium batteries.
Preparing conducting carbon nanospheres that operate as qubits at room temperature (right) by burning naphthalene (left).
Dr Mohammad Choucair
Much of the current research in quantum computing involves work at close to absolute zero. A simple breakthough with an everyday material could see them work at more acceptable temperatures.
You’ll be amazed how much nanotechnology is found in the average house.
From the kitchen sink to the laundry and garage -- nanotechnology has already made its way into the average household.
Silicon isn't the perfect semiconductor, it's just the one we're using. How can we ensure our electronics keep get getting faster in the face of silicon's natural physical limits?
Scientists have figured out how to make this…with graphene.
McEuen Group, Cornell University
Who says scientists aren't artistic? A team of researchers have done some amazing kirigami work, an ancient Japanese paper art, using graphene.
Hungarian artist László Moholy-Nagy often used industrial plastics in his artwork.
László Moholy-Nagy used industrial plastics in his paintings. But for decades, the type of plastic had been misidentified.
Graphene powder can be manufactured.
Dr Mohammad Choucair
There is much excitement about graphene, a material only a single carbon-atom thick, but finding ways to do something with it that's affordable have always been a challenge.
Make up your mind, glass.
Before Pilkingtons invented plate glass in the mid-19th century, flat panes could not be made. Old windows are uneven. Some once thought this was because glass is a liquid that flows down slowly over the…
Shapeshifting: 3D printed materials that change shape over time.
Dan Raviv/Scientific Reports
Additive manufacturing – or 3D printing – is 30 years old this year. Today, it’s found not just in industry but in households, as the price of 3D printers has fallen below US$1,000. Knowing you can print…
A copper strip bending to the forces of pressure: knowing how and why will help build better materials.
The exact pressure that permanently changes copper crystals has been pinpointed, according to a study released today. The…
Not so sexy, but very useful.
Simon Ydhag, Uppsala University
Researchers in Uppsala, Sweden accidentally left a reaction running over the weekend and ended up resolving a century-old chemistry problem. Their work has led to the development of a new material, dubbed…
By mimicking the structure of cork, graphene can be turned into a strong yet elastic material. Graphene is formed when graphite…